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Article Dans Une Revue Earth and Planetary Science Letters Année : 2018

Time-dependent feldspar dissolution rates resulting from surface passivation

Résumé

To which extent does the apparent negative correlation reported between silicate weathering rates and time result from the spontaneous physicochemical evolution of the fluid-mineral interface? To address this question, labradorite powders inserted in nylon bags and buried into two different topsoil horizons for four years were subjected to nanoscale characterization of their near-surface regions using transmission electron microscopy. These characterizations revealed the occurrence of a 30 to 70 nm-thick discontinuous amorphous silica-rich surface layer (ASSL) with a sharp crystalline-amorphous interfacial boundary between labradorite and the layer. Dissolution experiments conducted in mixed flow reactors at ambient temperature and acidic pH demonstrated that the reactivity of fresh and naturally weathered labradorite powders decreased with time, with the dissolution rate of fresh powders remaining systematically greater than that of naturally weathered powders, all over the duration of the experiments (3 weeks). In addition, the dissolution rate of all labradorite batches was noticeably lower in solutions containing elevated concentrations of SiO2(aq), which we attributed to the passivating effect of the ASSL5. This suggestion was confirmed with a simple passivation model, which enabled to capture (i) the greater reactivity of fresh powders; (ii) the dependence of the dissolution rate on [SiO2(aq)]; (iii) the gradual decline of powder dissolution rate with time and (iv) the discontinuous occurrence of ASSL5. The model further supports that surface passivation could be one of the (non-exclusive) mechanisms that could account for the so-called kinetic "field-lab discrepancy". The geochemical implications of the recognition of the passivation mechanism are broad, ranging from the need to revisit the kinetic rate laws implemented in geochemical codes to the questioning of the formalism used for determining weathering rates from the study of U-series nuclides in soils and weathering profiles.
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Dates et versions

hal-01898835 , version 1 (18-10-2018)

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Damien Daval, Christophe Calvaruso, François Guyot, Marie-Pierre M.-P. Turpault. Time-dependent feldspar dissolution rates resulting from surface passivation: Experimental evidence and geochemical implications. Earth and Planetary Science Letters, 2018, 498, pp.226-236. ⟨10.1016/j.epsl.2018.06.035⟩. ⟨hal-01898835⟩
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